Wheel hub machining center tooling

By designing tooling for a wheel hub machining center, and utilizing through holes in the housing and a fan to extract waste chips and dust, the problem of scattered waste chips and dust during wheel hub machining was solved, achieving both environmental protection and improved processing efficiency.

CN224373386UActive Publication Date: 2026-06-19HEBEI JIYU MASCH MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HEBEI JIYU MASCH MFG CO LTD
Filing Date
2025-05-21
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Waste and dust generated during wheel hub processing are scattered everywhere, affecting the surrounding environment and workers, and also affecting the processing procedures.

Method used

Design a wheel hub machining center fixture, including a housing, a fan, a support assembly, a clamping assembly, and an adjustment assembly. Waste chips and dust are sucked in through the through-hole of the housing, and the fan generates suction to collect them into the housing. The housing door facilitates cleaning. The support assembly supports the wheel hub, the clamping assembly fixes the wheel hub, and the adjustment assembly adapts to different sizes.

Benefits of technology

Effective collection and cleaning of waste and dust reduces the impact on the environment and processing procedures, and improves processing efficiency and safety.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of automotive parts processing technology, and more particularly to a wheel hub machining center fixture, including a fixed plate, a housing, a support assembly, a clamping assembly, and an adjusting assembly. The housing is disposed between two sets of fixed plates, and multiple sets of through holes are formed on the surface of the housing. A door is provided on one side of the housing, which is rotatably connected to the housing. A fan is fixedly installed on the other side of the housing. Compared with current methods, which may generate a large amount of waste and dust during wheel hub processing, causing the waste and dust to scatter and affect the surrounding environment, impacting workers, and affecting some processing steps, this utility model uses a housing to support and install the overall fixture. Multiple sets of through holes are formed on the surface of the housing, and a fan generates suction to draw in the waste and dust generated during processing through the through holes and collect them inside the housing. After a period of use, the housing door facilitates the centralized cleaning of the waste and dust inside the housing.
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Description

Technical Field

[0001] This utility model relates to the field of automotive parts processing technology, and in particular to tooling for wheel hub machining centers. Background Technology

[0002] Wheel hub machining center fixtures are used to fix and support wheel hubs so as to enable precise operation and efficient production during the wheel hub machining process;

[0003] The wheel hub may generate a lot of waste and dust during the processing. The waste and dust scattered around will affect the surrounding environment, affect the workers, and also affect some processing procedures.

[0004] Therefore, in view of the fact that a large amount of waste and dust may be generated during the processing of wheel hubs, which will affect the surrounding environment, the workers and some processing steps, a wheel hub processing center tooling can be designed. By setting up a waste and dust collection structure, the waste and dust generated during the processing can be reduced, thus reducing the impact on the environment, workers and processing steps, and facilitating the subsequent cleaning of waste and dust. Utility Model Content

[0005] To overcome the problem that a large amount of waste and dust may be generated during the wheel hub processing, which will affect the surrounding environment, impact workers, and also affect some processing procedures.

[0006] The technical solution of this utility model is as follows: a wheel hub machining center tooling, including a fixed plate, a housing, a support assembly, a clamping assembly, and an adjusting assembly. The housing is disposed between two sets of fixed plates, and multiple sets of through holes are opened on the surface of the housing. A door is provided on one side of the housing, and the door is rotatably connected to the housing. A fan is fixedly installed on the other side of the housing. The support assembly is disposed above the housing, the clamping assembly is disposed above the housing, and the adjusting assembly is disposed on one side of the clamping assembly, with the adjusting assembly located above the housing.

[0007] Preferably, the entire tooling is supported and installed by a housing, and waste generated during the processing can be collected. A fan generates suction, and through the through-hole, the waste generated during processing is sucked into the housing for collection, preventing the waste from affecting the processing. A housing door allows for convenient collection of the waste inside the housing. A support assembly supports and places the wheel hub, a clamping assembly fixes the wheel hub placed on the support assembly, and an adjustment assembly can adjust the clamping assembly to accommodate wheel hubs of different sizes.

[0008] Preferably, the support assembly includes a first bearing, an arc-shaped support platform, and a support frame. The arc-shaped support platform is located above the housing and is rotatably connected to the housing via the first bearing. The support frame is fixedly installed above the arc-shaped support platform.

[0009] Preferably, a first threaded rod is fixedly installed on the top of the support frame, and an internal threaded sleeve is disposed around the first threaded rod, with the internal threaded sleeve being threadedly connected to the first threaded rod.

[0010] Preferably, four sets of slide rails are provided on the top of the box, and the slider is located on the top of the box. The slider is slidably connected to the box through the slide rails, and a limit plate is fixedly installed at one end of the slide rail.

[0011] Preferably, the clamping assembly includes a mounting block, a slide groove, a telescopic rod, and a mounting plate. The mounting block is fixedly mounted above the slider, and a slide groove is provided on one side of the mounting block. The telescopic rod is fixedly mounted above the mounting block and passes through the mounting block. The mounting plate is fixedly mounted at the output end of the telescopic rod and is located inside the slide groove. The mounting plate is slidably connected to the mounting block through the slide groove.

[0012] Preferably, the clamping assembly includes a spring, a pressure plate, and an anti-slip pad. The spring is fixedly installed below the mounting plate, and multiple sets of springs are provided. The pressure plate is fixedly installed below the spring, and the anti-slip pad is fixedly installed below the pressure plate.

[0013] Preferably, the adjustment assembly includes an internal threaded mounting bracket, a second threaded rod, and a second bearing. The internal threaded mounting bracket is fixedly installed on the top of the housing and is located at one end of the slide rail. The second threaded rod passes through the internal threaded mounting bracket and is threadedly connected to the internal threaded mounting bracket. The second threaded rod is located on one side of the mounting block and is rotatably connected to the mounting block through the second bearing.

[0014] The beneficial effects of this utility model are as follows: Compared with the current method of wheel hub processing, which may generate a large amount of waste and dust, the scattered waste and dust will affect the surrounding environment, affect the workers, and also affect some processing steps; this utility model sets up a box to support and install the overall tooling, and opens multiple sets of through holes on the surface of the box. By setting up a fan to generate suction, the waste and dust generated during processing are sucked up through the through holes and collected into the box. After a period of use, the box door is set up to facilitate the centralized cleaning of waste and dust inside the box. Attached Figure Description

[0015] Figure 1 The diagram shown is a first three-dimensional structural schematic of the tooling for the wheel hub machining center of this utility model;

[0016] Figure 2The diagram shown is an exploded view of the tooling support assembly of the wheel hub machining center according to this utility model.

[0017] Figure 3 The diagram shown is a second three-dimensional structural schematic of the tooling for the wheel hub machining center of this utility model;

[0018] Figure 4 The diagram shown is a three-dimensional structural schematic of the tooling clamping assembly of the wheel hub machining center according to this utility model.

[0019] Explanation of reference numerals in the attached drawings: 1. Fixing plate; 2. Box body; 201. Through hole; 202. Fan; 203. Box door; 301. First bearing; 302. Arc-shaped support platform; 303. Support frame; 401. First threaded rod; 402. Internal threaded sleeve; 501. Slide rail; 502. Slider; 503. Limiting plate; 601. Mounting block; 602. Slide groove; 603. Telescopic rod; 604. Mounting plate; 605. Spring; 606. Pressure plate; 607. Anti-slip pad; 701. Internal threaded mounting bracket; 702. Second threaded rod; 703. Second bearing. Detailed Implementation

[0020] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0021] Please see Figures 1-4 This utility model provides an embodiment of a wheel hub machining center fixture, including a fixed plate 1, a housing 2, a support assembly, a clamping assembly, and an adjusting assembly. The housing 2 is disposed between two sets of fixed plates 1. Multiple through holes 201 are formed on the surface of the housing 2. A door 203 is provided on one side of the housing 2, and the door 203 is rotatably connected to the housing 2. A fan 202 is fixedly installed on the other side of the housing 2. The support assembly and the clamping assembly are located above the housing 2, and the adjusting assembly is located to one side of the clamping assembly, positioned above the housing 2. The fixture is configured with the housing 2 for overall machining. The system provides support and installation, and can collect waste generated during the processing. A fan 202 generates suction, and a through hole 201 draws the waste generated during processing into the housing 2 for collection, preventing the waste from affecting the processing. A door 203 allows for convenient collection of the waste inside the housing 2. A support assembly supports and places the wheel hub, and a clamping assembly fixes the wheel hub placed on the support assembly. An adjustment assembly can be used to adjust the clamping assembly to accommodate wheel hubs of different sizes, improving applicability.

[0022] Please see Figures 1-2In this embodiment, the support assembly includes a first bearing 301, an arc-shaped support platform 302, and a support frame 303. The arc-shaped support platform 302 is disposed above the housing 2 and is rotatably connected to the housing 2 via the first bearing 301. The support frame 303 is fixedly installed above the arc-shaped support platform 302. By setting the arc-shaped support platform 302 to install the support frame 303, the arc surface can effectively prevent waste debris from accumulating on it. By setting the support frame 303, the wheel hub can be supported and placed, and waste debris is not easily accumulated, allowing the waste debris to fall smoothly through the through hole 201 and be contained by the housing. 2. By setting the first bearing 301, the arc-shaped support platform 302 can be rotatably connected to the housing 2, so that the hub can be rotated conveniently during processing, which facilitates processing work; a first threaded rod 401 is fixedly installed on the top of the support frame 303, and an internal threaded sleeve 402 is set on the periphery of the first threaded rod 401, and the internal threaded sleeve 402 is threadedly connected to the first threaded rod 401; by setting the internal threaded sleeve 402, the hub placed on the support frame 303 can be positioned, and by setting the first threaded rod 401, different internal threaded sleeves 402 can be installed, so as to match hubs of different specifications.

[0023] Please see Figures 3-4In this embodiment, four sets of slide rails 501 are provided above the housing 2, and sliders 502 are provided above the housing 2. The sliders 502 are slidably connected to the housing 2 through the slide rails 501, and a limit plate 503 is fixedly installed at one end of the slide rails 501. The sliders 502 support and install the clamping assembly. The slide rails 501 allow the sliders 502 to slide above the housing 2, thereby cooperating with the adjustment assembly to adjust the sliders 502. The limit plate 503 limits the sliding of the sliders 502. The clamping assembly includes a mounting block 601, a slide groove 602, a telescopic rod 603, and a mounting plate 604. 04. The mounting block 601 is fixedly installed above the slider 502. A groove 602 is provided on one side of the mounting block 601. The telescopic rod 603 is fixedly installed above the mounting block 601 and passes through the mounting block 601. The mounting plate 604 is fixedly installed at the output end of the telescopic rod 603. The mounting plate 604 is located inside the groove 602 and is slidably connected to the mounting block 601 through the groove 602. The telescopic rod 603 is installed by setting the mounting block 601, and the telescopic rod 603 can push the mounting plate 604 to slide within the groove 602. The clamping assembly includes a spring 60. 5. A pressure plate 606 and an anti-slip pad 607 are fixedly installed below the mounting plate 604, and multiple sets of springs 605 are provided. The pressure plate 606 is fixedly installed below the springs 605, and the anti-slip pad 607 is fixedly installed below the pressure plate 606. The pressure plate 606 is installed by setting the springs 605, and the pressure plate 606 is set to press and fix the wheel hub placed on the support frame 303. The protective pad can increase the friction, prevent the wheel hub from sliding, and effectively prevent the pressure plate 606 from rigidly contacting the wheel hub, thus preventing scratches on the wheel hub surface. The adjustment component includes an internal thread mounting bracket 701, the first... The second threaded rod 702 and the second bearing 703 are fixedly installed on the top of the housing 2. The internal threaded mounting bracket 701 is located at one end of the slide rail 501. The second threaded rod 702 passes through the internal threaded mounting bracket 701 and is threadedly connected to the internal threaded mounting bracket 701. The second threaded rod 702 is located on one side of the mounting block 601 and is rotatably connected to the mounting block 601 through the second bearing 703. The second threaded rod 702 is installed by setting the internal threaded mounting bracket 701. By rotating the second threaded rod 702, the slider 502 can be pushed to slide on the slide rail 501.

[0024] During operation, different internal threaded sleeves 402 are fitted around the first threaded rod 401 according to the specifications of the wheel hub. The internal threaded sleeves 402 are used to position the wheel hub so that the wheel hub is placed above the support frame 303.

[0025] By rotating the second threaded rod 702, the slider 502 can be pushed to slide through the slide rail 501, thereby moving the pressure plate 606 above the wheel hub according to the size of the wheel hub;

[0026] The telescopic rod 603 is used to push the mounting plate 604 to slide in the groove 602 in the mounting block 601, so that the pressure plate 606 presses down on the wheel hub and fixes the wheel hub. The anti-slip pad 607 is in direct contact with the wheel hub, which can increase the friction and prevent the wheel hub from sliding. On the other hand, it can prevent the pressure plate 606 from rigidly contacting the wheel hub and prevent the wheel hub surface from being scratched.

[0027] The first bearing 301 can drive the support frame 303 to rotate, which facilitates the rotation of the wheel hub and makes it easier to carry out processing. The support frame 303 and the arc support platform 302 support the wheel hub, which can prevent the accumulation of processing waste.

[0028] The fan 202 generates suction, and the through hole 201 can be used to suck up the waste generated during processing and collect it inside the box 2, reducing the impact of waste generated during processing on processing. The box door 203 can be used to easily clean the inside of the box 2.

[0029] Through the above steps, the overall tooling is supported and installed by setting up the box body 2, and multiple sets of through holes 201 are opened on the surface of the box body 2. A fan 202 is set up to generate suction, and the waste and dust generated during processing are sucked up through the through holes 201 and collected into the box body 2. After a period of use, the box door 203 is set up to facilitate the centralized cleaning of waste and dust inside the box body 2, so as to solve the problem that a large amount of waste and dust may be generated during the processing of wheel hubs. The waste and dust scattered will affect the surrounding environment, affect the workers, and also affect some processing procedures.

[0030] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present invention.

Claims

1. A wheel hub machining center fixture, including a fixing plate (1); characterized in that: It also includes a housing (2), a support assembly, a clamping assembly, and an adjusting assembly. The housing (2) is located between two sets of fixed plates (1). Multiple sets of through holes (201) are opened on the surface of the housing (2). A door (203) is provided on one side of the housing (2). The door (203) is rotatably connected to the housing (2). A fan (202) is fixedly installed on the other side of the housing (2). The support assembly is located above the housing (2). The clamping assembly is located above the housing (2). The adjusting assembly is located on one side of the clamping assembly and is located above the housing (2).

2. The wheel hub machining center tooling of claim 1, wherein: The support assembly includes a first bearing (301), an arc-shaped support platform (302), and a support frame (303). The arc-shaped support platform (302) is located above the housing (2) and is rotatably connected to the housing (2) through the first bearing (301). The support frame (303) is fixedly installed above the arc-shaped support platform (302).

3. The wheel hub machining center tooling of claim 2, wherein: A first threaded rod (401) is fixedly installed on the top of the support frame (303), and an internal threaded sleeve (402) is disposed on the periphery of the first threaded rod (401), and the internal threaded sleeve (402) is threadedly connected to the first threaded rod (401).

4. The wheel hub machining center tooling of claim 1, wherein: Four sets of slide rails (501) are provided on the top of the box (2). The slider (502) is located on the top of the box (2). The slider (502) is slidably connected to the box (2) through the slide rails (501). A limit plate (503) is fixedly installed at one end of the slide rails (501).

5. The wheel hub machining center tooling of claim 4, wherein: The clamping assembly includes a mounting block (601), a slide groove (602), a telescopic rod (603), and a mounting plate (604). The mounting block (601) is fixedly mounted above the slider (502). A slide groove (602) is provided on one side of the mounting block (601). The telescopic rod (603) is fixedly mounted above the mounting block (601) and passes through the mounting block (601). The mounting plate (604) is fixedly mounted at the output end of the telescopic rod (603). The mounting plate (604) is located inside the slide groove (602) and is slidably connected to the mounting block (601) through the slide groove (602).

6. The wheel hub machining center tooling of claim 5, wherein: The clamping assembly includes a spring (605), a pressure plate (606), and an anti-slip pad (607). The spring (605) is fixedly installed below the mounting plate (604), and multiple sets of springs (605) are provided. The pressure plate (606) is fixedly installed below the spring (605), and the anti-slip pad (607) is fixedly installed below the pressure plate (606).

7. The wheel hub machining center tooling of claim 5, wherein: The adjustment assembly includes an internal threaded mounting bracket (701), a second threaded rod (702), and a second bearing (703). The internal threaded mounting bracket (701) is fixedly installed on the top of the housing (2) and is located at one end of the slide rail (501). The second threaded rod (702) passes through the internal threaded mounting bracket (701) and is threadedly connected to the internal threaded mounting bracket (701). The second threaded rod (702) is located on one side of the mounting block (601) and is rotatably connected to the mounting block (601) through the second bearing (703).